Jung-Kyu Lim scite author profile

Background: The aim of this study was to investigate the physicochemical properties of polyethylene oxide (PEO)-based controlled release solid dispersions (CR-SDs) containing aceclofenac, Gelucire® 44/14, poloxamer 407 and pH modifier (Na2CO3). Results: The immediate release solid dispersions containing the pH modifier greatly enhanced the drug dissolution rate to approximately 100%, while the CR-SDs with PEO showed controlled release. A bigger droplet size and a higher surface charge for the CR-SDs were observed compared with the immediate release solid dispersions. The pH modifier played an important role in modulating the release rate of the drug through changes in the drug crystallinity and the hydrogen-bonding interaction, as well as the microenvironmental pH. Near-infrared images revealed a modulation of the PEO concentration to preserve the pH modifier within the system for controlled release of the drug. Conclusion: The dissolution process of PEO-based solid dispersions containing a water-insoluble drug was governed by the changing net effect of the microenvironmental pH, the surface charge, the particle size and the release rate of the pH modifier, as well as the function of PEO in controlling drug release.

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Physical properties and in vivo bioavailability in human volunteers of isradipine using controlled release matrix tablet containing self-emulsifying solid dispersion

Tran

Piao

et al. 2013

International Journal of Pharmaceutics

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Nickel Particle Coatings by Electroless Plating onto Carbon Nanotubes

Cho¹,

Lim²,

Jang³

et al. 2010

Kor. J. Met. Mater.

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Drug Release-Modulating Mechanism of Hydrophilic Hydroxypropylmethylcellulose Matrix Tablets: Distribution of Atoms and Carrier and Texture Analysis

Park

Lim²,

Kang³

et al. 2013

CDD

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Although release profiles of drug from hydrophilic matrices have been well recognized, the visual distribution of hydroxypropylmethylcellulose (HPMC) and atoms inside of internal structures of hydrophilic HPMC matrices has not been characterized. In this paper, drug release mechanism from HPMC matrix tablet was investigated based on the release behaviors of HPMC, physical properties of gelled HPMC tablet and atomic distributions of formulation components using diverse instruments. A matrix tablet consisting of hydroxypropyl methylcellulose (HPMC 6, 4,000 and 100,000 mPa·s), chlorpheniramine maleate (CPM) as a model and fumed silicon dioxide (Aerosil(®) 200) was prepared via direct compression. The distribution of atoms and HPMC imaging were characterized using scanning electron microscope (SEM)/ energy-dispersive X-ray spectroscopy (EDX), and near-infrared (NIR) analysis, respectively as a function of time. A texture analyzer was also used to characterize the thickness and maintenance of gel layer of HPMC matrix tablet. The HPMC matrix tablets showed Higuchi release kinetics with no lag time against the square root of time. High viscosity grades of HPMC gave retarded release rate because of the greater swelling and gel thickness as characterized by texture analyzer. According to the NIR imaging, low-viscosity-grade HPMC (6 mPa·s) quickly leached out onto the surface of the tablet, while the high-viscosity-grade HPMC (4000 mPa·s) formed much thicker gel layer around the tablet and maintained longer via slow erosion, resulting in retarded drug release. The atomic distribution of the drug (chlorine, carbon, oxygen), HPMC (carbon, oxygen) and silicon dioxide (silica, oxygen) and NIR imaging of HPMC corresponded with the dissolution behaviors of drug as a function of time. The use of imaging and texture analyses could be applicable to explain the release- modulating mechanism of hydrophilic HPMC matrix tablets.

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Jung-Kyu Lim

As-deposited LiCoO2 thin film cathodes prepared by rf magnetron sputtering

Physicochemical Principles of Controlled Release Solid Dispersion Containing a Poorly water-soluble Drug

Physical properties and in vivo bioavailability in human volunteers of isradipine using controlled release matrix tablet containing self-emulsifying solid dispersion

Nickel Particle Coatings by Electroless Plating onto Carbon Nanotubes

Drug Release-Modulating Mechanism of Hydrophilic Hydroxypropylmethylcellulose Matrix Tablets: Distribution of Atoms and Carrier and Texture Analysis

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